Lossy transmission line metamaterials

## Abstract In this work, it is demonstrated that it is possible to synthesize the metamaterial transmission lines with extreme characteristic impedances. The structures consist on left‐handed microstrip lines based on the combination of complementary split rings resonators (CSRRs), which are etche

## Abstract We describe the efficient and accurate numerical solution of propagation problems in composite and dual‐composite right/left‐handed metamaterials using a discrete diffraction formula based on lattice Green's functions. For both metamaterials and for physically realizable parameters, we

## Abstract The analysis of lossy nonreciprocal transmission line (LNTL in short), which is the most general case in transmission line problems, is presented in this article. By modifying the expression of input impedance, we get a novel graphical tool called omnipotent Smith chart (OSC) for solvin

## Abstract Here we solve the transmission‐line equations for a metamaterial having shunt and series inductances electromagnetically coupled together. We derive and analyze the anomalous wave properties that such a metamaterial may have, envisioning its realization both as a transmission‐line metam

## Abstract The propagation constant is extended and derived for lossy metamaterials in which ε < 0 and μ > 0 (ENG), ε > 0 and μ < 0 (MNG), and ε < 0 and μ < 0 (DNG).Regardless of the magnitudes of ε and μ, DPS materials are a RH medium and DNG materials are a LH medium. However, SNG materials beco

## Abstract Originally published in Microwave Opt Technol Lett 49: 2392–2395, 2007. © 2007 Wiley Periodicals, Inc. Microwave Opt Technol Lett 50: 263, 2008; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mop.23053